Fake e-cards signal massive DDoS attack

Storm worm's a brewin'

Security researchers are reporting a sharp increase in the number of machines infected by the Storm Worm, prompting speculation that its authors, who so far have limited their activities to spam, intend to use it for more destructive purposes, such as launching massive denial of service attacks.

In June and July, internet security provider SecureWorks counted 1.7m unique hosts carrying the Storm Worm, compared with just 2,817 from January to May, according to Joe Stewart, a senior researcher with the company. The number of attacks blocked by SecureWorks has similarly skyrocketed, from 71,342 for the first five months of the year to 20.2m since June.

Just about anyone with an email account is painfully familiar with Storm, whose most recent spam messages bear subjects such as "You've received a greeting e-card from a worshipper." Once recipients follow the link and install the malicious code, they become part of the same network as the original sender and either churn out the same e-card messages or spam containing PDF files that tout penny stocks.

The spike in the number of infected machines is leading to speculation that the people maintaining the Storm network are aspiring to greater things.

"In most cases, a botnet of 1,000 or 10,000 is plenty to do what these guys want to do, which is spam or DDoS somebody," Stewart told El Reg. "We're wondering if perhaps the idea of having a virtually unstoppable DDoS net might be driving this."

One possible plan may be to build a network that could be leased out to hackers so they can launch a massive attack on a large company or entire country. Stewart, who frequently monitors underground forums where cyber criminals advertise their products and services, says little is known about the people connected with Storm. He has yet to see individuals identify themselves as being affiliated with the network.

The Storm Worm got its name after malware-laced mass emails that first spread in January promised information about winter storms that ravaged Northern Europe. Since then, the email topics have changed many times, demonstrating a strong ability in its authors to trick recipients into clicking through so they become infected.

Storm Worm combines this social-engineering savvy with a technical prowess that relies on peer-to-peer technology for updates rather than a centralized command and control channel on an internet relay chat network. And therein lies the secret to Storm's resiliency.

"Instead of being connected to a single IRC server, it's connected by p2p, so there's no head to cut off," said Allysa Myers, a virus research engineer at McAfee. "It's been difficult to do anything on a larger level to try to kill this thing off."

Storm infections can also be extremely hard to detect and remove because they frequently alter executables that get loaded during startup, rather than relying on traditional, and better understood, techniques of modifying the startup registry. For example, recent variants of the Storm Worm, which also goes by the name of W32/Newar, "parasitically infect" tcpip.sys files.

"It's something that has been used by a number of different families over the last six months or so, and Newar [authors] have seen this tactic used by other virus writers and have started to incorporate it," Myers said. ®